Method and apparatus for image acquisition, organization, manipulation, and publication

ABSTRACT

To better realize the great potential of amateur digital photography, the present invention introduces an integrated system for the acquisition, organization, manipulation, and publication of digital images by amateur digital photography enthusiasts. The system of the present invention first acquires images from a number of different image sources. Images acquired in the same image importing session are marked as coming from the same conceptual film roll. Next, a user is empowered to organize and manipulate the acquired images. The images may be organized by tagging the images with informative keywords and grouping images together into conceptual photo albums. Furthermore, the images may be manipulated by rotating, cropping, and removing red-eye. Finally, the system of the present invention provides simple intuitive image publish systems. A selected group of images may be published in a photobook, published onto the World Wide Web, or published as individual image prints with minimal computer knowledge on the part of the user.

CLAIM OF BENEFIT TO PRIOR APPLICATIONS

This Application is a continuation application of U.S. patent application Ser. No. 10/742,446, filed Dec. 19, 2003, now issued as U.S. Pat. No. 7,289,132. U.S. patent application Ser. No.10/742,446 is a continuation application of U.S. patent application Ser. No. 10/042,944, now U.S. Pat. No. 6,850,247, filed Jan. 6, 2002. These applications are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to the field of digital photography. In particular the present invention discloses an intuitive system for digital image acquisition, organization, manipulation, and publication.

BACKGROUND OF THE INVENTION

With traditional amateur film photography, the process often ends after a film roll has been developed and returned to the photographer. The photographer obtains the developed photographs in an envelope and reviews the photographs with friends and family. Some energetic amateur photographers select their favorite photographs and place those photographs into a photo album. However, most amateur photographs simply end up in a shoebox at the back of the closet. Occasionally, the shoebox is retrieved such that friends and family may view the photographs.

With the advent of digital photography, the possibility for organizing and publishing amateur photographs has greatly increased. Amateur photographs can be published on the world-wide web (WWW) to allow anyone on the Internet to view the photographs. Image manipulation programs can be used to manipulate digital photographs in order to correct flaws, modify colors, etc. However, the potential of amateur digital photography largely remains unrealized. Most digital photographs are just stashed away on hard disk drives or burned onto Compact Disc Read-Only Memories (CD-ROMs) and only occasionally viewed. A few digital photographs are emailed to friends and family.

To better realize the great potential of amateur digital photography, it is clear that better tools are needed for amateur digital photography enthusiasts. These tools should be highly intuitive yet provide powerful features for the acquisition, organization, manipulation, and publication of digital images.

SUMMARY OF THE INVENTION

To better realize the great potential of amateur digital photography, the present invention introduces an integrated system for the acquisition, organization, manipulation, and publication of digital images by amateur digital photography enthusiasts. The system of the present invention first acquires images from a number of different image sources. Images acquired in the same image importing session are marked as coming from the same conceptual film roll. Next, a user is empowered to organize and manipulate the acquired images. The images may be organized by tagging the images with informative keywords and grouping images together into conceptual photo albums. The images may be manipulated by rotating, cropping, and removing red-eye. Finally, the system of the present invention provides simple intuitive image publishing systems. A selected group of images may be published in a photobook, published onto the World Wide Web, or published as individual image prints with minimal computer knowledge on the part of the user.

Other objects, features, and advantages of present invention will be apparent from the accompanying drawings and from the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The objects, features, and advantages of the present invention will be apparent to one skilled in the art in view of the following detailed description in which:

FIG. 1 illustrates a flow diagram that describes the overall flow from image acquisition to image publication using the system of the present invention.

FIG. 2 illustrates a block diagram of a computer system that may be used to implement the teachings of the present invention.

FIG. 3 illustrates one embodiment of the main display screen of the image organization and publishing system of the present invention.

FIG. 4 illustrates a view of the main display screen with film roll dividers appearing between different groups of images acquired into the image organization and publishing system at different times.

FIG. 5 a illustrates the landscape aspect ratio for an image.

FIG. 5 b illustrates the portrait aspect ratio for an image.

FIG. 5 c illustrates a dotted line square box that ensures either a landscape or a portrait image will fit within its borders.

FIG. 5 d illustrates an example of image review window that displays images using the dotted line square box of FIG. 5 c.

FIG. 6 illustrates an example of a main image review window that displays thumbnail images with view packing system of the present invention.

FIG. 7 illustrates a flow diagram describing the flow of producing a photobook using the system of the present invention.

FIG. 8 a illustrates a style sheet for a portrait image page.

FIG. 8 b illustrates a style sheet for a landscape image page.

FIG. 8 c illustrates a style sheet for a dual portrait image page.

FIG. 8 d illustrates a style sheet for a dual landscape image page.

FIG. 8 e illustrates a style sheet for a image page with a landscape image and a portrait image.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

A method and apparatus for the acquisition, organization, manipulation, and publication of digital images is disclosed. In the following description, for purposes of explanation, specific nomenclature is set forth to provide a thorough understanding of the present invention. However, it will be apparent to one skilled in the art that these specific details are not required in order to practice the present invention. For example, the present invention has been described with reference to publishing images in a photobook, on a World Wide Web page, and as individual photographic prints. However, the system of the present invention can be used to publish images in other formats such as postcards, magazines, and email messages.

Image Manipulation & Publishing System Overview

To better realize the great potential of amateur digital photography, the present invention introduces an integrated system for the acquisition, organization, manipulation, and publication of digital images by amateur digital photography enthusiasts. FIG. 1 illustrates a flow diagram that describes the overall flow from image acquisition to image publication using the image organization and publishing system of the present invention.

Image Processing Flow

Referring to step 120 of FIG. 1, the first task is to capture images that will be organized, manipulated, and published. The system of the present invention does not deal with the image capture stage since that stage is the purview of digital cameras and color scanner systems. Note that the images may be captured in any original source format (chemical film photography or electronic digital photography) as long as a digital version of the original source image is available.

The image organization and publishing system of the present invention begins at step 130 where image acquisition is performed. The goal of the image acquisition step is to get the images onto a computer system that will be used to organize, manipulate, and publish the images. The system of the present invention allows digital images to be acquired from various different sources such as digital cameras, CD-ROMS, and across computer networks. The image acquisition system of the present invention records certain information to help organize the images.

After acquiring the captured images on the computer system, the acquired images are organized and manipulated at step 140. The image organization and publishing system of the present invention provides a number of intuitive yet powerful tools for organizing and manipulating the acquired images.

At step 150, the user of the image organization and publishing system of the present invention selects a set of desired images for publication. The user further selects a particular image publication system to use since the system of the present invention uses an open architecture that provides more than one image publication system and allows additional publication systems to be added later.

Finally, at step 160 in FIG. 1, the image organization and publishing system of the present invention publishes the selected images using the selected publication system. Step 160 is illustrated in a dotted box because not all of the work in step 160 will be performed by the image organization and publishing system of the present invention. For example, for certain publication systems, the image organization and publishing system will send processed image data to another outside system that will provide an end result such as a published photo book.

Image Processing Computer System

FIG. 2 illustrates an exemplary embodiment of a computer system 200 that may be used to implement the teachings of the present invention. Computer system 200 may be a typical personal computer system with a processor 210, a memory 220, and a bus controller 230 for controlling a system bus 235. Various different Input/Output devices may be coupled to the system bus 235 to allow the computer system 200 to interact with the outside world. For example, computer system 200 includes the input/output devices of a hard disk drive (HDD) 269, a display device 261 (such as a CRT or flat panel display), a keyboard 251, a cursor control device 253 (such as a computer mouse or track pad), a Compact Disc Read-Only-Memory (CD-ROM) Drive 280, and network interface 291 for coupling to a network such as local area network (LAN) 295.

The image organization and publishing system 225 of the present invention resides in the memory 220 of computer system 200 as a set of computer instructions. The image organization and publishing system may also reside as a program on a media device such as CD-ROM 281 used with CD-ROM drive 280. Alternatively, the image organization and publishing system may be obtained across a network such as the global Internet 299 accessible through network interface 291.

Image Acquisition

Referring back to step 130 in FIG. 1, the first task of the image organization and publishing system of the present invention is to acquire digital images to process. Referring to FIG. 2, the acquired images are normally stored onto a mass storage device such as hard disk drive (HDD) 269. In one embodiment of the present invention, the image organization and publishing system 225 may acquire digital images from a number of different sources.

Digital Camera Image Acquisition

In a preferred embodiment of the present invention, the image organization and publishing system of the present invention includes driver software necessary to automatically identify and interoperate with several different types of digital cameras that may be coupled to the host computer system.

For example, FIG. 2 illustrates a digital camera system 247 coupled to serial bus 245 controlled by serial bus interface 240 of the computer system 200. Serial bus 245 may be a Universal Serial Bus (USB), an IEEE 1394 Firewire serial bus, or any other type of serial bus.

In a preferred embodiment, image organization and publishing system 225 is able to automatically recognize when digital camera system 247 is coupled to computer system 200 such that the digital images in digital camera system 247 can be acquired. In one embodiment, the image organization and publishing system 225 would ask the user if he or she would like to delete the transferred images off of digital camera system 247 such that the same digital images would not be transferred again at a later time.

Other Image Acquisition Means

The image organization and publishing system 225 can also acquire images in a number of other manners. For example, film photographs may be placed onto a floppy disc (not shown) or onto CD-ROM 281 by the film developer at the request of the film photographer. Such photos may be acquired by image organization and publishing system 225 by having the user place the floppy disc (not shown) or CD-ROM 281 into the appropriate drive such as floppy disc drive (not show) or CD-ROM drive 280.

Images may also be obtained through a computer network interface 291 of computer system 200. For example, a user may obtain images from a World Wide Web (WWW) site on the global Internet 299. Finally, images may also be obtained using a scanner (not shown) coupled to computer system 200 as is well known in the art.

Image Set Grouping

When the image organization and publishing system 225 acquires a set of images, the image organization and publishing system 225 identifies all the images in some manner to indicate that the set of images are related. This objective may be achieved by marking all the images in the set with a unique set identifier. In this manner, a set of images that are likely to be related will be kept together.

For example, when a user couples digital camera system 247 to computer system 200, the image organization and publishing system 225 may recognize digital camera system 247 and inform the user that images may be transferred from digital camera system 247. If the user transfers images from digital camera system 247 onto computer system 200, the image organization and publishing system 225 indicates that all the images transferring during that session are related. As previously set forth, this may be achieved by marking all the images in the set with a unique set identifier. Alternatively, the transferred images may all be given the same file creation date and time such that any program accessing those transferred images could infer that the images are related since the images were all created at the same date and time.

Image Organization and Manipulation

Once images have been acquired into the computer system 200 used by the image organization and publishing system 225, the image organization and publishing system 225 displays the images to the user such that the user may organize, manipulate, and publish the images. FIG. 3 illustrates one embodiment of the main display screen 300 of the image organization and publishing system 225.

Referring to FIG. 3, a main image review window 310 allows the user to view all the images that have been acquired in the image organization and publishing system. The available digital images are displayed as thumbnail summary images within main image review window 310.

The size of the thumbnail summary images displayed within main image review window 310 may be varied using image size slider 313. By setting the image size slider 313 to make the thumbnail images very small, a large number of images may be viewed simultaneously within main image review window 310. Conversely, by setting the image size slider to make the images large, fewer images may be viewed simultaneously but more detail can be seen in each image displayed. The user may scroll through the various images using scroll bar 315. The main image review window 310 acts as the “shoebox” for storing all the images available to the user.

Film Roll Concept

As set forth in the previous section, images that are acquired into the image organization and publishing system at the same time are grouped together into a related set. In one embodiment, such groupings are conceptually viewed as different “film rolls”.

The main image review window 310 can be used to display such film roll groupings. FIG. 4 illustrates a view of the main display screen with a “film roll” checkbox 453 checked such that film roll dividers appear between different groups of images acquired into the image organization and publishing system at different times. Specifically, the first two images are from a first “film roll” (image acquisition time), the next five images are from a second film roll, the next two images are from a third film roll, and so on.

View Packing

The images displayed in the main image review window are presented in an aesthetically pleasing manner that optimizes the use of space. Specifically, the present invention introduces a “view packing” system that is analogous to proportional spacing in written documents.

Images generally come in two different aspect formats: landscape and portrait. FIG. 5 a illustrates the landscape format named since that format is generally used when photographing landscape images. FIG. 5 b illustrates the portrait format that is generally used when taking a portrait photograph of human.

One method of displaying both landscape and portrait images together in an organized manner is to reserve a space for either shaped image. FIG. 5 c illustrates a dotted line square box that ensures either a landscape or a portrait image will fit within its borders. FIG. 5 d illustrates an example of image review window that displays images using the dotted line square box of FIG. 5 c.

To more efficiently use display screen real estate, the view packing system of the present invention sequentially examines the ordered list of images and, for each image row, takes as many images as will fit on a row with an allowance for a minimum space between images. If there are a large number of consecutive narrow portrait images, then a large number of images will be displayed on a particular row. Alternatively, if there are a large number of consecutive wider landscape images, then fewer images will be displayed on a row.

FIG. 6 illustrates an example of a main image review window 600 that displays thumbnail images with view packing. Referring to the first row 610 of main image review window 600, only four landscape images could fit in the row. The extra horizontal space for row 610 was uniformly placed between the landscape images.

In the second row, row 620, six narrow portrait images are presented. The narrow portrait images thus allow more images to be displayed on a particular row. However, note that row 620 is taller than row 610 that only contains landscape images.

Row 630 contains two landscape images and three portrait images. Due to the presence of the tall portrait images, the mixed row 630 takes as much vertical space as portrait only row 620. However, the narrow portrait images do allow for some efficiency in the horizontal direction such that five images are displayed in row 630. Note that in mixed row 630, all the images (both portrait and landscape) are centered in the vertical direction.

By comparing the view packing system of FIG. 6 to the prior art system of FIG. 5, one can easily see the display screen real estate efficiencies of the view packing system of the present invention.

Image Keyword Tagging

To help organize the images in the user's “shoebox”, the present invention provides an intuitive keyword tagging system. Referring back to FIG. 3, the main display screen 300 includes a keyword tagging bar 340 for tagging images in the main image review window 310.

To tag a particular image or a set of images, a user simply selects the desired image or images in the main image review window 310 and then clicks on one of the keywords in the keyword tagging bar 340. To display all the keyword tags associated with the images, the user may click the “keywords” checkbox 352 such that keywords associated with an image are displayed below that image in the main image review window 310. Similarly, the user may display titles associated with each image by clicking on the titles checkbox 351.

The keyword tagging bar 340 initially contains a number of common keywords that are relevant to photographs. For example, the keywords “Family”, “Vacation”, and “Holiday” allow a person to tag images as being related to their family members, their vacations, or holiday celebrations, respectively. However, empty spaces are available on the keyword tagging bar 340 to allow the user to create their own personal keywords. In one embodiment, the user may apply a “keyword filter” such that the main image review window 310 only displays images containing a particular keyword or set of keywords.

Two special keywords, “none” 341 and

342, are also presented on the keyword tagging bar 340. The “none” 341 keyword specifies that an image should have no keyword tags. Thus, the “none” 341 keyword can be used to clear existing keywords on an image.

The

342 (check) keyword is a special keyword that is displayed on the front of the thumbnail version of an image in the main image review window 310. The

342 keyword is used to provide the user with a means for selecting a particular image from a group of similar images. For example, the top row of images in the main image review window 310 may contain four images of the same landscape. The user may carefully review all four images and select the third as the best image of the four images of the same landscape. To remember that selection, the user may mark the third image using the

342 keyword button. Thus, the user will be reminded of that choice as illustrated by the

icon on the third image of the first row.

Photo Albums

To further organize the images, a user of the image organization and publishing system allows the user to create conceptual “photo albums.” A photo album is a specific ordered list of images from the overall shoebox containing all the images. Each photo album is given a descriptive title.

Referring again to FIG. 3, the photo album list area 330 contains a list of photo albums. In FIG. 3, there are five photo albums titled “Mexico Trip”, “Christmas 2001”, “Yosemite Park”, “Santa Cruz”, and “Billy.” In one embodiment, a user may view the images in a particular photo album by selecting the name of the photo album such that only the images from that photo album are display in the main image review window 310. Note that images in a photo album are in a specific order and that order is reflected in the main image review window 310. The user may rearrange the order of the images by dragging and dropping the images within main image review window 310.

To create a new photo album, the user clicks on new album button 321 that is marked with a “+”. The user provides a descriptive name for the new photo album and then may begin dragging images from the shoebox and dropping the images onto the name of the new photo album. Additional information may be obtained about a particular photo album by selecting the photo album name and then clicking the information button 323.

To generate a quick slide show of the images in a photo album, the user may select a particular photo album name and then click the slide show “play” button 322. The image organization and publishing system will then sequentially display the images in full screen form on the display system. A music track may be selected to accompany the slide show.

The slide show “play” button 322 may also be used to create a slide show of any group of images. Specifically, the user may select any group of images in the main image review window 310 and then click the slide show “play” button 322 to create a slide show of the selected images.

Image Editing

The image organization and publishing system of the present invention provides a set of features for editing the acquired images. Most of the image editing tools are available in a separate image editing mode. However, referring to FIG. 3, an image in the main image review window 310 may be rotated by selecting the image and then clicking the rotate button 324 that will rotate the image ninety degrees clockwise. Images may be rotated counter-clockwise by holding down the keyboard shift key while clicking the rotate button 324.

In an image-editing mode, the present invention provides a set of intuitive image editing tools for editing images. One editing tool is a “red-eye” removal tool. To use the red-eye tool, a user should highlight the area of an image containing the red eyes and then click the red-eye tool. The user may also just click the red-eye tool without selecting an area of the image but better results will be provided when only a certain area of the screen is selected.

In order to prepare images for enlargement, the image-editing mode provides an image-cropping tool. In a preferred embodiment, the image-cropping tool allows the user to select the most common aspect ratios used for creating reprints. Specifically, the image-editing mode provides a cropping tool that can be locked in 3×5, 4×6, 5×7, and 8×10 aspect ratios. In this manner, the user can select exactly how an enlargement will appear as opposed to the current traditional photography system wherein the film developer crops the image as needed to obtain the aspect ratio of the selected reprint size.

In one embodiment, the image-editing mode of the present invention creates a new image file containing all the edits applied by the user. However, the original file of the unedited image is still kept unaltered. In this manner, the user may go back and retrieve the original image if it is later needed.

Image Publication

After a user has organized and manipulated a set of images, the user may then wish to publish the organized and manipulated set of images. The present invention provides an expandable system for publishing images. Specifically, the image organization and publishing system uses individual image-publishing modules of code to provide image-publishing services.

Three image-publishing modules are included in an initial embodiment of the present invention. Specifically, one embodiment includes a photobook publication module, a World Wide Web Homepage publication module, and a photograph reprint publication module.

Photobook Publication

The photobook publication module allows a user to quickly and easily create an aesthetically pleasing photobook. The creation of a photobook will be described with reference to the flow diagram in FIG. 7 and the style sheets in FIGS. 8 a to 8 e.

Referring to FIG. 7, the user must first create and select a photo album as set forth in step 720. The creation of a photo album is described in the previous sections. The user then selects the desired photo album and enters the photobook publication module as set forth in step 730.

Next, in step 740, the user must select a photobook style. The photobook publication module contains a number of different photobook styles that may be selected. The photobook styles describe the overall appearance of the photobook that can be created.

Each photobook style consists of a series of different style sheets that describe how each page of the photobook will appear. FIGS. 8 a and 8 b illustrate two possible style sheets for a single image page in a photobook. Specifically, FIG. 8 a illustrates a style sheet for a portrait image page wherein the solid line area is the location for the image and the dotted line area is for a caption associated with the image. Similarly, FIG. 8 b illustrates a style sheet for a landscape image page.

FIGS. 8 c, 8 d, and 8 e illustrate possible style sheets for a dual image page in a photobook. The style sheet of FIG. 8 c is for two portrait images, the style sheet of FIG. 8 d is for two landscape images, and the style sheet of FIG. 8 e is for a page with one landscape image and one portrait image.

The photobook publication module fills in style sheet pages in the template photobook style until all the images in the photo album are exhausted. The photobook publication module automatically selects the proper style sheet depending on the image aspect ratio (portrait or landscape). If the number of images in the photo album does not match up perfectly, one embodiment of the present invention leaves the final page incomplete. In an alternate embodiment, the photobook publication module selects a style sheet with the exact number images needed for the last page.

Referring again to FIG. 7, the user may then manipulate the automatically formatted photobook at step 750. Specifically, the user should fill in the captions for the images. The user may reorder the pages in a photobook. The user may also reorder images or delete images from the photobook. In one embodiment, when the user reorders pages, reorders images, or deletes images in a photobook then the photobook publication module propagates the changes back to the photo album used to create the photobook.

In one embodiment, there is a “lock page” checkbox for each page in the photobook layout. The lock page checkbox can be used to prevent other changes made to the photobook from affecting the locked page. For example, if the user locks a particular photobook page and then deletes an earlier image, the images in the locked page will not be split up in order to fill in for the missing image. Instead, one embodiment of the present invention selects a style sheet with one less image needed for the page before the locked page. In an alternative embodiment, an image after the locked page will be moved in front of the locked page.

Finally, when the user is satisfied with the photobook layout, the user requests a final photobook formatting at step 760. In one embodiment, the photobook publication module processes the arranged photobook to create a Portable Document Format (PDF) file. Details on the Portable Document Format can be found from Adobe Systems, Inc. of San Jose, Calif.

After creating the final formatting of the photobook, the user may publish the photobook at step 770 by printing the photobook on a local printer. However, to obtain a hardbound photobook, the photobook publishing module allows the user to submit the formatted photobook directly to a custom book publisher across the Internet. Note that this system uses the locally available computing power to create the photobook such that a difficult editing session across a computer network is not necessary.

Home Page Publication

A user may publish their images on the World Wide Web using a World Wide Web Homepage publication module. The World Wide Web Homepage publication module operates in a very similar manner as the previously described photobook publication module.

Specifically, the user first selects a photo album and a template World Wide Web Homepage style. The World Wide Web Homepage publication module then generates a proposed World Wide Web Homepage. The user may then edit the proposed World Wide Web Homepage. When the user completes the editing of the proposed World Wide Web Homepage, the user may then submit the created World Wide Web Homepage to a World Wide Web hosting service.

Individual Print Publication

Finally, the user may publish images as individual prints. To publish a set of prints, a user selects a group of images from the main image review window 310 or selects a photo album from the photo album area 330 of FIG. 3 and then requests reprints. The photograph reprint publication module then displays an electronic order form to the user with the selected images. The user may then select the quantity and size desired for each of the images. A “quick order” selection may be used to indicate a desired quantity for all the selected images. In one embodiment, the quick order selection also allows the user to select a desired size.

The foregoing has described an image organization and publishing system. It is contemplated that changes and modifications may be made by one of ordinary skill in the art, to the materials and arrangements of elements of the present invention without departing from the scope of the invention. 

1. A method of implementing a user interface on a computing device, said method comprising: providing a display area for displaying a plurality of thumbnail images representing a plurality of images stored on the computing device by arranging the plurality of thumbnail images in a set of rows; and providing a single user movable two-dimensional shape having a surface area, said two-dimensional shape moveable in two directions to allow a user of said user interface to concurrently adjust sizes of the plurality of thumbnail images displayed in said display area, wherein a movement of said user movable shape in a first direction causes the sizes of the plurality of thumbnail images displayed in said display area to decrease, and a movement of said user movable shape in a second direction causes the sizes of the plurality of thumbnail images displayed in said display area to increase, wherein when said user movable shape moves in one of the two directions to decrease or increase the sizes of the plurality of thumbnail images, the number of thumbnail images that appear on a particular row changes based on a width of the display area, a size of each thumbnail image on the particular row, a minimum spacing to be placed between adjacent thumbnail images on the particular row, and any extra spacing that is determined to be placed between the adjacent thumbnail images on the particular row.
 2. The method of claim 1, wherein said user interface is a graphical user interface (“GUI”) of an image organizing application for creating different digital photo albums and organizing different sets of images into the different digital photo albums.
 3. The method of claim 1 further comprising: providing a marking tool for (i) allowing the user to select a set of thumbnail images from the plurality of thumbnail images and (ii) associating the set of selected thumbnail images with a graphical mark, wherein the display area is further for displaying each thumbnail image in the set of selected thumbnail images with the graphical mark at least partially over the thumbnail image to remind the user of the selection of the set of thumbnail images; and providing a filtering option that when applied causes the display area to only display the set of thumbnail images associated with the graphical mark.
 4. The method of claim 1, wherein at least one thumbnail image displayed in said display area is user selectable.
 5. The method of claim 1, wherein the plurality of thumbnail images comprises at least one icon.
 6. The method of claim 1, wherein said movement of said user movable shape in the first direction displays at least one additional thumbnail image in said display area when the movement causes the display area to have enough screen space to entirely fit the one additional thumbnail image.
 7. The method of claim 1, wherein said movement of said user movable shape in the second direction automatically removes at least one thumbnail image from the display area when the movement causes the display area to have not enough screen space to entirely fit the one additional thumbnail image.
 8. A method of interacting with a user of a computing device, said method comprising: in a display area of a graphical user interface (“GUI”), displaying a plurality of thumbnail images with at least a minimum amount of space placed between adjacent thumbnail images, wherein displaying the plurality of thumbnail images comprises arranging the plurality of thumbnail images in a plurality of rows; from the user, receiving movement of a user movable control of the GUI in one of two different directions to concurrently resize the plurality of thumbnail images displayed in said display area, said control having a two-dimensional shape with a surface area; in response to movement of said user movable control, resizing concurrently said plurality of thumbnail images, and adjusting the amount of space to be placed in between the plurality of thumbnail images by dynamically calculating a spacing to be evenly placed between a set of thumbnail images on a particular row based on a size of the particular row, the minimum spacing to be placed between the set of thumbnail images, orientations of the set of thumbnail images, and sizes of the set of thumbnail images; and displaying the resized plurality of thumbnail images with the adjusted amount of space placed in between the plurality of thumbnail images in said display area.
 9. The method of claim 8, wherein the plurality of thumbnail images are representations that correspond to a plurality of images stored in a storage of the computing device.
 10. The method of claim 8, wherein said user movable control is a slider which when moved along a first direction decreases sizes of the plurality of thumbnail images and when moved along a second direction increases the sizes of the plurality of the thumbnail images, wherein receiving movement of said user movable control comprises receiving movement of said slider along one of said first and second directions.
 11. The method of claim 8, wherein the orientations comprise a horizontal orientation and a landscape orientation.
 12. The method of claim 8 further comprising: in response to said movement of said user movable control, automatically moving at least one thumbnail image between at least two rows in said display area.
 13. A method of providing a user interface for a computing device, said method comprising: providing a display area for displaying a plurality of thumbnail images representing a plurality of images stored on the computing device by arranging the plurality of thumbnail images in a set of rows; providing a first slider for moving along a first track to scroll through the plurality of thumbnail images displayed in the display area; and providing a fixed-sized second slider different from the first slider for moving along a second track separate from the first track in first and second directions in order to concurrently resize the plurality of thumbnail images displayed in said display area, said second track having a plurality of different positions that corresponds to a plurality of different sizes for the plurality of thumbnail images, wherein a movement of said second slider along said second track in the first direction concurrently decreases the sizes of the plurality of thumbnail images displayed in said display area, and a movement of said second slider along said second track in the second direction concurrently increases the sizes of the plurality of thumbnail images displayed in said display area, wherein the movement of said second slider along the second track moves at least one thumbnail image between two rows based on a width of the display area, a size of each thumbnail image on each of the two rows, a minimum spacing to be placed in between thumbnail images, and any extra spacing that is determined to be placed evenly between the adjacent thumbnail images.
 14. The method of claim 13, wherein the user interface is a graphical user interface of an image organizing application that executes on the computing device, wherein said display area, said sliders, and said tracks are provided as parts of said graphical user interface.
 15. The method of claim 14, wherein the display area is a first display area, the method further comprising: providing a user-selectable control for creating digital photo albums; and providing a second display area for displaying the digital photo albums as user-selectable items, wherein the first display area is further for (i) displaying thumbnail images representing images acquired with the image organizing application, and (ii) displaying only each thumbnail image that represents a particular image associated with a particular digital photo album when a user-selectable item that corresponds to the particular digital photo album is selected from the second display area.
 16. The method of claim 13, wherein said second slider has a two-dimensional shape with a surface area.
 17. A non-transitory computer readable medium storing a computer program comprising sets of instructions for implementing a graphical user interface (“GUI”) on a computing device, said computer program for execution by at least one processor, said computer program comprising sets of instructions for: displaying, in a display area of the GUI, a plurality of thumbnail images representing a plurality of images stored on the computing device by arranging the plurality of thumbnail images in a set of rows; receiving movement of a slider in one of two different directions to concurrently resize the plurality of thumbnail images displayed in said display area without adjusting the size of the slider by automatically moving at least one thumbnail image between two rows based on a width of the display area, a size of each thumbnail image on each of the two rows, a minimum spacing to be placed in between adjacent thumbnail images, and any extra spacing that is determined to be placed evenly between the adjacent thumbnail images; and in response to the movement of said slider, concurrently resizing the plurality of thumbnail images and displaying the resized plurality of thumbnail images in said display area.
 18. The non-transitory computer readable medium of claim 17, wherein at least one thumbnail image displayed in said display area is user selectable.
 19. A non-transitory computer readable medium storing a program comprising sets of instructions for implementing a graphical user interface (“GUI”) on a device, said program for execution by at least one processor, said GUI comprising: a display area for displaying a plurality of thumbnail images arranged in a set of rows on a display screen of the device; and a single user movable control movable in at least two different directions to decrease concurrently sizes of the thumbnail images displayed in said display area or increase concurrently the sizes of the thumbnail images displayed in said display area, wherein when the movable control moves in one of the two directions to decrease or increase sizes of the thumbnail images displayed in said display area by a particular amount, the number of thumbnail images that appear on a particular row changes based on a size of each thumbnail image on the particular row, the size of the particular row, a minimum spacing to be placed between two thumbnail images on the particular row, and any extra spacing that is determined to be placed evenly between the two thumbnail images in the particular row.
 20. The non-transitory computer readable medium of claim 19, wherein the number of thumbnail images that appear on the particular row changes by moving at least one thumbnail image between two rows in said display area.
 21. The non-transitory computer readable medium of claim 19, wherein the number of thumbnail images that appear on the particular row changes by displaying at least one additional thumbnail image in said display area when the sizes of the thumbnail images decrease.
 22. A non-transitory computer readable medium storing a computer program comprising a graphical user interface (GUI) for displaying images on a computing device, said computer program comprising sets of instructions for: displaying a plurality of thumbnail images in a display area of the GUI by arranging the plurality of thumbnail images in at least first and second rows; receiving movement of a slider along one of first and second directions to concurrently increase or decrease sizes of the plurality of thumbnail images displayed in said display area; moving a first thumbnail image from the first row to the second row when the movement of the slider along the first direction concurrently increases the sizes of the plurality of thumbnail images and causes the first row to not have enough space to fit the first thumbnail image; and moving a second thumbnail image from the second row to the first row when the movement of said slider along the second direction concurrently decreases the sizes of the plurality of thumbnail images and causes the first row to have enough space to fit the second thumbnail image, wherein the movement of the first and second thumbnail images between the first and second rows is based on a width of the display area, sizes of the thumbnail images on a particular row, a minimum spacing to be placed between adjacent thumbnail images on the particular row, and any extra spacing that is determined to be placed evenly between the adjacent images on the particular row. 